Solar power could deliver $400 billion in environmental and public health benefits throughout the United States by 2050, according to a study from Berkeley Lab and National Renewable Energy Laboratory.
When scientists Daniel Riley and Jared Schwede left Stanford University last year to join Cyclotron Road, Lawrence Berkeley National Laboratory’s program for entrepreneurial researchers, their vision was to take thermionics, an all-but-forgotten technology, and develop it into a clean, compact, and efficient source of power.
It’s estimated that 10 percent of all the energy used in buildings in the U.S. can be attributed to window performance, costing building owners about $50 billion annually, yet the high cost of replacing windows or retrofitting them with an energy efficient coating is a major deterrent. Berkeley Lab researchers are seeking to address this problem with creative chemistry—a polymer heat-reflective coating that can be painted on at one-tenth the cost.
Berkeley Lab scientists have created the first computational model that simulates the light-harvesting activity of thousands of antenna proteins that would interact in the chloroplast of an actual leaf. The results point the way to improving the yields of food and fuel crops, and developing artificial photosynthesis technologies for next generation solar energy systems.
Renewable Energy for State Renewable Portfolio Standards Yielded Sizable Benefits and Other Impacts in 2013
A new study estimates that billions in dollars in benefits come from reduced greenhouse gas emissions and from reductions in other air pollution for state renewable portfolio standard (RPS) policies operating in 2013. RPS policies require utilities or other electricity providers to meet a minimum portion of their load with eligible forms of renewable electricity.